photoconductive material 中文意思是什麼
photoconductive material
解釋
光傳導材料- photoconductive : adj. 【物理學】光電導的。
- material : adj 1 物質的(opp spiritual)。2 身體上的,肉體上的;物慾的,追求實利的;卑俗的。3 有形的,實體的...
-
A review of the development of organic semiconductor composite photo - conductive materials and devices was followed by a proposal of the researching theme in this thesis. the effects of fabrication arts such as solvents, gradient, interfacial layer and configurations on the photoconductive properties of the single - layer chlorodiane blue azo / tiopc composite photoreceptors were systematically studied in chapter ii. the results showed that the solvent played a decisive role in the multiphase and multicomponent system composed of two photogeneration species ( chlorodiane blue azo and tiopc ), a transporting material ( hydrozone ) and polymer binder ; 1, 4 - dioxane, as an amphiphilic solvent can effectively disperse and stabilize such multiphase and multicomponent systems, the derived photoreceptors presented improved photoconductive properties superior to those of dual - layer counterparts and demonstrated the evident synergetic enhancement and complementary effects ( eg
結果表明:在由兩種光生材料氯丹藍偶氮和酞菁氧鈦、傳輸材料萘苯腙以及聚合物介質組成的多相多組分復合體系中,分散溶劑是至關重要的因素,二氧六環作為典型的雙親性溶劑,有效地分散和穩定了該多相多組分復合體系,得到的復合單層光導體的光敏性在整體上優于雙層光導體,復合材料在可見光和近紅外光區分別表現出的偶氮和酞菁氧鈦的光敏性(如azo / tiopc = 8 / 2 , cgm / ctm / pc = 1 / 120 / 120時,具有明顯的互補效應;在近紅外光區明顯高於酞菁氧鈦與偶氮光敏性的線性加和,表現出協同增強正效應。 -
Duo to the intrinsic characteristics of the gaas material, serai - insulating ( si ) gaas photoconductive semiconductor switches ( pcss " s ) have more obvious advantages in the performance of both high power and ultra - fast switching than those pcss " s made of other materials and then can be widely used in ultrahigh speed electronics, field of high power microwave generation and pulse forming ( pulse sources of high power ultra - fast electromagnetism, ultra - wide - band microwave generator )
半絕緣gaas光電導開關( photoconductivesemiconductorswitches簡稱pcss ' s )具有兼備寬頻帶和高功率容量特性,使其在超高速電子學和大功率脈沖產生與整形技術領域(大功率亞納秒脈沖源、超寬帶射頻發生器等)具有廣泛應用前景。 -
A coherent electromagnetic pulse in the range between the far - infrared and microwave region is used as a detection source. the amplitude of the wave is recorded by electro - optical or photoconductive sampling. after fast fourier transform, the amplitude and phase of the wave is given, then the complex refractive index standing for the absorption and dispersion of the material in thz region is extracted
Thz ( 10 ~ ( 12 ) hz )時域光譜技術是20世紀90年代發展起來的一種新型的光譜測量技術,它使用頻率介於遠紅外和微波之間的相干電磁輻射脈沖作為探測源,利用電光取樣或光電導取樣的方法直接記錄thz輻射電場的振幅時間波形,通過傅立葉變換得到測量信號振幅和相位的光譜分佈,進而獲得材料在thz波段的復介電常數,即色散及吸收等信息。 -
Pristine materials evidently ca n ' t meet such requirements. it has been demonstrated that preparations of hybrid and nanoscale materials are effective ways to improve material properties, the field of which are becoming one of hot research in organic photoconductive materials at present. new phenomena and new effects can also be derived from these hybrid and nanoscale organic photoconductive materials, which can help to illuminate photocarrier generation mechanism of organic photoconductive materials
大量研究結果表明,復合化和低維化是提高材料基本性能的有效途徑,因此通過有機光電導材料復合化與低維化的研究,以滿足上述要求,就成為當前國際上有機光電材料科學研究的前沿與熱點之一,同時有機光電導材料的復合化和低維化的研究必將有助於發現許多新現象和新效應,有助於闡明有機材料的光電導機理,建立完善的有機光電導理論,為高性能有機光電導材料的設計提供理論基礎。 -
The main reasons for the enhanced photoconductive properties and the new effects of o - azo / cnts nanocomposites are owing to the increase of the interface area between charge generation material and charge transportation material and the charge transfer from nanoscale o - azo to cnts in o - azo / cnts nanocomposites
然料蕉共平層奮等件碩然鑫的電荷轉移是偶氮/碳納米管納米復合光電導材料體系的光譜響應范圍拓寬和光敏性能顯著增強的主要物理起因。 -
By using the composite and nanoscalization approaches, we fabricated and investigated in this thesis new kinds of organic / organic and organic / inorganic hybrid photoconductive materials and their single - layered configuration organic photoreceptors, where the charge generation material and charge transportation material display their functions, respectively, in the same layer. a series of new phenomena and new effects of these organic photoconductive materials caused by hybrid and nanoscalization are studied. their photoconductive properties and mechanism are investigated as well
本文主要從有機半導體材料的復合化和低維化出發,通過光電導功能復合和納米化等手段,制備新型高效的多種有機半導體復合光電導材料體系及其相應的有機單層光電導體,研究復合化與低維化給有機光電導材料體系帶來的一系列新現象和新效應,並初步探索相關的復合原理和光電導機理。
分享友人